| Patent application number | Description | Published |
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| 20090025753 | Lithographic Apparatus And Contamination Removal Or Prevention Method - A lithographic apparatus is disclosed having an in situ ozonizer, which is used to produce ozone gas, for example, by UV irradiation of an oxygen-containing gas. The thus produced ozone is dissolved in ultra-pure water by contacting the ozone with the ultra-pure water through a permeable membrane. | 01-29-2009 |
| 20090027635 | Lithographic Apparatus and Contamination Removal or Prevention Method - An immersion lithographic apparatus is cleaned by use of a cleaning liquid consisting essentially of ultra-pure water and (a) a mixture of hydrogen peroxide and ozone, or (b) hydrogen peroxide at a concentration of up to 5%, or (c) ozone at a concentration of up to 50 ppm, or (d) oxygen at concentration of up to 10 ppm, or (e) any combination selected from (a)-(d). | 01-29-2009 |
| 20090027636 | Lithographic Apparatus, Reflective Member And A Method of Irradiating The Underside Of A Liquid Supply System - A lithographic apparatus that includes a reflector configured to reflect a cleaning beam of radiation projected through a projection system onto an underside of a liquid retrieval system is disclosed. The construction of the reflector is also disclosed as is a method for irradiating the underside of a liquid supply system for use in cleaning. | 01-29-2009 |
| 20100214543 | LITHOGRAPHIC APPARATUS, A METHOD OF CONTROLLING THE APPARATUS AND A DEVICE MANUFACTURING METHOD - A method of operating a lithographic apparatus is disclosed. The method includes moving a substrate table supporting a substrate relative to a projection system and adjusting the scanning speed between the substrate table and the projection system during imaging of a target within a predefined area at or near an edge of the substrate, or adjusting the stepping speed between adjacent target positions in a predefined area at or near the edge of the substrate, or both. The adjusting the scanning and/or stepping speed may comprise lowering the speed. The projection system is configured to project a patterned beam of radiation on to a target portion of the substrate. | 08-26-2010 |
| 20110188013 | LITHOGRAPHIC APPARATUS AND CONTAMINATION REMOVAL OR PREVENTION METHOD - An immersion lithographic apparatus is cleaned by use of a cleaning liquid consisting essentially of ultra-pure water and (a) a mixture of hydrogen peroxide and ozone, or (b) hydrogen peroxide at a concentration of up to 5%, or (c) ozone at a concentration of up to 50 ppm, or (d) oxygen at concentration of up to 10 ppm, or (e) any combination selected from (a)-(d). | 08-04-2011 |
| 20110292357 | FLUID HANDLING STRUCTURE, A LITHOGRAPHIC APPARATUS AND A DEVICE MANUFACTURING METHOD - A fluid handling structure to confine immersion liquid in a space between a projection system and a facing surface of a substrate, of a table to support the substrate, or both, is disclosed. The fluid handling structure includes a transponder to dissolve at least some of the gas in a bubble in the immersion liquid or to control a bubble in the immersion liquid so that it avoids entering an optical path of a beam from the projection system. | 12-01-2011 |
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| 20110228259 | OPTICAL FIBER ALIGNMENT MEASUREMENT METHOD AND APPARATUS - A measurement system comprising an analog position sensitive device is provided that can measure the XY position of a plurality of light beams at very high resolution. In accordance with one exemplary associated method, a connector bearing one or more optical fibers is fixedly positioned before a position sensing detector so that light emanating from the ends of the optical fibers will strike the position sensing detector. A light beam is passed through at least one opening in the connector, such as a guide pin hole onto the detecting surface of the PSD to establish the position of the connector. Next, each optical fiber in the connector is individually illuminated sequentially so that the light emanating from the fiber falls on the position sensing detector. The locations of all of these light beams striking the PSD are compared to position of the light beam passed through the guide pins and/or to each other to determine if all the fibers are in the correct positions relative to the connector. In addition, it is possible to simultaneously measure the magnitude of the light emanating from each fiber in order to measure the quality of the light transmission through the connector/cable assembly. | 09-22-2011 |
| 20120014648 | FERRULE FOR OPTICAL TRANSPORTS - The invention pertains to a ferrule for aligning optical transports within an optical connector for coupling to a mating optical connector for purposes of aligning the optical transports in the first connector with optical transports in the mating connector. The ferrule comprises a main body portion defining a longitudinal cavity running between a front face and the rear face of the main ferrule body. The cavity has an opening to a lateral side of the ferrule main body that permits the installation of optical transports into the cavity from a lateral direction (as well as still permitting longitudinal installation, if desired). A cover may be provided for closing off the lateral opening after the optical transports are installed in the cavity. | 01-19-2012 |
| 20120014649 | METHOD AND APPARATUS FOR ALIGNING OPTICAL TRANSPORTS IN A FERRULE - Methods and apparatus for aligning optical transports, such as waveguides and optical fibers, in a ferrule of an optical connector. The ferrule has an open side through which optical transports may be inserted into a transport cavity in the ferrule from a direction transverse the longitudinal direction of the optical transports and ferrule. To assemble the optical transports in the ferrule, the ferrule is positioned with its front face abutting and aligned with a jig that has an opening substantially identical to the ferrule cavity. The jig has grooves in a bottom surface of the cavity into which the optical transports will be inserted for transversely aligning the optical transports. The optical transports are then dropped into the aligned cavities of the ferrule and jig through the open sides of the ferrule and jig so that the front ends of the optical transports sit at least partially in the V-shaped grooves of the jig, thereby aligning the transports in the transverse dimension. A press cures adhesive in the cavity to cure the adhesive and fix the transports in the ferrule. The optical transports are then cleaved or otherwise cut flush with the front face of the ferrule. The process is repeated for each row of optical transports with the height of the bottom of the cavity in the jig adjusted for each subsequent row by an amount equal to the thickness of a row of the optical transports. | 01-19-2012 |
| 20120014650 | Apparatus and Method for Aligning Optical Transports in a Ferrule - Method and apparatus for aligning optical transports in a ferrule. The ferrule has an open side through which optical transports may be laterally placed in a transport cavity. The transports are aligned in the ferrule by mounting the ferrule on a jig having grooves into which the ends of the optical transports are inserted for transversely aligning the fibers in the ferrule. A row of transports is placed in the ferrule cavity with the front ends of the transports extending past the ferrule and into the grooves of the jig, thereby laterally aligning the transports with the grooves. The fibers are affixed to the ferrule. The ferrule can then be removed from the jig and the front ends of the transports that extended into the grooves of the jig cleaved flush with the front face of the ferrule. Additional rows of transports may be aligned in the ferrule in the same manner using different jigs. C-shaped grooves can be employed to separate the horizontal alignment from the vertical alignment. Specifically, horizontal alignment is effectuated by the opposing edges of the groove at the mouth of the C shape engaging the transports and vertical alignment is effectuated by the cladding layer of the row of transports resting on the tops of the grooves. It also is possible to create effective grooves of a smaller size than might otherwise be manufacturable in a single jig piece by, instead, fabricating two jig pieces, each with larger grooves and longitudinally aligning the two jig pieces with their respective grooves laterally offset from each other so that each jig piece effectively provides half of the groove. | 01-19-2012 |
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| 20090031310 | System and Method for Executing Nested Atomic Blocks Using Split Hardware Transactions - Split hardware transaction techniques may support execution of serial and parallel nesting of code within an atomic block to an arbitrary nesting depth. An atomic block including child code sequences nested within a parent code sequence may be executed using separate hardware transactions for each child, but the execution of the parent code sequence, the child code sequences, and other code within the atomic block may appear to have been executed as a single transaction. If a child transaction fails, it may be retried without retrying the parent code sequence or other child code sequences. Before a child transaction is executed, a determination of memory consistency may be made. If a memory inconsistency is detected, the child transaction may be retried or control may be returned to its parent. Memory inconsistencies between parallel child transactions may be resolved by serializing their execution before retrying at least one of them. | 01-29-2009 |
| 20100031267 | Distribution Data Structures for Locality-Guided Work Stealing - A data structure, the distribution, may be provided to track the desired and/or actual location of computations and data that range over a multidimensional rectangular index space in a parallel computing system. Examples of such iteration spaces include multidimensional arrays and counted loop nests. These distribution data structures may be used in conjunction with locality-guided work stealing and may provide a structured way to track load balancing decisions so they can be reproduced in related computations, thus maintaining locality of reference. They may allow computations to be tied to array layout, and may allow iteration over subspaces of an index space in a manner consistent with the layout of the space itself. Distributions may provide a mechanism to describe computations in a manner that is oblivious to precise machine size or structure. Programming language constructs and/or library functions may support the implementation and use of these distribution data structures. | 02-04-2010 |
| 20100325630 | PARALLEL NESTED TRANSACTIONS - A system for managing transactions, including a first reference cell associated with a starting value for a first variable, a first thread having an outer atomic transaction including a first instruction to write a first value to the first variable, a second thread, executing in parallel with the first thread, having an inner atomic transaction including a second instruction to write a second value to the first variable, where the inner atomic transaction is nested within the outer atomic transaction, a first value node created by the outer atomic transaction and storing the first value in response to execution of the first instruction, and a second value node created by the inner atomic transaction, storing the second value in response to execution of the second instruction, and having a previous node pointer referencing the first value node. | 12-23-2010 |
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| 20090262030 | ANTENNA ARRANGEMENT - An antenna arrangement comprises a central part extending in a first plane, an antenna element comprised in an antenna part, which antenna part and antenna element extend from the central part in a second plane, a first counterpoise part, extending from the central part in a third plane, and a second counterpoise part extending from the central part in a fourth plane, the antenna arrangement is arranged in a functional position. The functional position implying that the folded first and second counterpoise parts together represents a counterpoise and the antenna element resonates together with the counterpoise, thus making the whole antenna arrangement serve as an antenna. | 10-22-2009 |
| 20090289855 | Methods and Apparatus for Providing an Integrated Inverted Loop Antenna in a Wireless Device - An integral antenna for a wireless device in a personal article may include a housing that defines an interior space that is configured to house a functional component of the personal article. The housing includes an electrically conductive housing portion that is configured to include a first opening that substantially defines a first plane. The integral antenna includes an electrically conductive plane that is mounted in the interior space and is isolated from the electrically conductive housing portion, the electrically conductive plane oriented substantially parallel to and spaced apart from the first plane and defining a continuous gap between the electrically conductive plane and the electrically conductive housing portion. | 11-26-2009 |
| 20100302119 | Antenna Arrangement - An enhanced antenna system may include at least two antenna elements distanced from each other and substantially in parallel and connected to a common input/output port for said antenna system. Each of said antenna elements may include a portion having an impedance such that the impedance is influenced by an external load such that one of the at least two antennas closest to said load is influenced by said load and detuned. | 12-02-2010 |
| 20110317844 | Small Stereo Headset - A wireless headset device has left a left ear piece, a right ear piece, a control box, and first and second cables. Each of the ear pieces comprises its own speaker and battery. The control box includes circuitry including a short-range radio transceiver, a codec, and a power management unit. The left ear piece battery is connected to supply power to the power management unit by means of the first cable; and the right ear piece battery is connected to supply power to the power management unit by means of the second cable. The power management unit in the control box regulates the supplied battery power and supplies regulated power to control box circuitry. | 12-29-2011 |
